I have to pass a function to another function, and execute it as a callback. The problem is that sometimes this function is async, like:

async function() {
 // Some async actions

So I want to execute await callback() or callback() depending on the type of function that it is receiving.

Is there a way to know the type of the function??

  • 12
    Don't try to detect it and do different things depending on what you get. Clearly document whether you support callbacks that return promises or not, then treat them as such. (Hint: if you await a non-promise, it automatically wraps it anyway)
    – Bergi
    Commented Jul 15, 2018 at 15:15
  • 4
    the whole point of async is to not have callbacks, right? Commented Oct 11, 2019 at 16:53
  • @FelipeValdes - I think it's more like: the point of async is not to have to manage callbacks. I have some sympathy with OP: if the function to be called is not async, then a direct call to the function will yield the value, whereas putting await on the call will unnecessarily introduce a promise wrapper around it and is, I guess, somewhat less efficient.
    – JohnRC
    Commented Feb 18, 2022 at 11:55

12 Answers 12



Native async functions may be identifiable when being converted to strings:

asyncFn[Symbol.toStringTag] === 'AsyncFunction'

Or by AsyncFunction constructor:

const AsyncFunction = (async () => {}).constructor;

asyncFn instanceof AsyncFunction === true

This won't work with Babel/TypeScript output, because asyncFn is regular function in transpiled code, it is an instance of Function or GeneratorFunction, not AsyncFunction. To make sure that it won't give false positives for generator and regular functions in transpiled code:

const AsyncFunction = (async () => {}).constructor;
const GeneratorFunction = (function* () {}).constructor;

(asyncFn instanceof AsyncFunction && AsyncFunction !== Function && AsyncFunction !== GeneratorFunction) === true

Since native async functions were officially introduced to Node.js in 2017, the question likely refers to Babel implementation of async function, which relies on transform-async-to-generator to transpile async to generator functions, may also use transform-regenerator to transpile generator to regular functions.

The result of async function call is a promise. According to the proposal, a promise or a non-promise may be passed to await, so await callback() is universal.

There are only few edge cases when this may be needed. For instance, native async functions use native promises internally and don't pick up global Promise if its implementation was changed:

let NativePromise = Promise;
Promise = CustomPromiseImplementation;

Promise.resolve() instanceof Promise === true
(async () => {})() instanceof Promise === false;
(async () => {})() instanceof NativePromise === true;

This may affect function behaviour (this is a known problem for Angular and Zone.js promise implementation). Even then it's preferable to detect that function return value is not expected Promise instance instead of detecting that a function is async, because the same problem is applicable to any function that uses alternative promise implementation, not just async (the solution to said Angular problem is to wrap async return value with Promise.resolve).


From the outside, async function is just a function that unconditionally returns native promise, therefore it should be treated like one. Even if a function once was defined async, it can be transpiled at some point and become regular function.

A function that can return a promise

In ES6, a function that potentially returns a promise can be used with Promise.resolve (lets synchronous errors) or wrapped Promise constructor (handles synchronous errors):

.then(result => ...);

new Promise(resolve => resolve(fnThatPossiblyReturnsAPromiseOrThrows()))
.then(result => ...);

In ES2017, this is done with await (this is how the example from the question is supposed to be written):

let result = await fnThatPossiblyReturnsAPromiseOrThrows();

A function that should return a promise

Checking if an object is a promise is a matter of a separate question, but generally it shouldn't be too strict or loose in order to cover corner cases. instanceof Promise may not work if global Promise was replaced, Promise !== (async () => {})().constructor. This can happen when Angular and non-Angular applications interface.

A function that requires to be async, i.e. to always return a promise should be called first, then returned value is checked to be a promise:

let promise = fnThatShouldReturnAPromise();
if (promise && typeof promise.then === 'function' && promise[Symbol.toStringTag] === 'Promise') {
  // is compliant native promise implementation
} else {
  throw new Error('async function expected');

TL;DR: async functions shouldn't be distinguished from regular functions that return promises. There is no reliable way and no practical reason to detect non-native transpiled async functions.

  • This is not working on my end. AsyncFunction !== Function is always false even though I have functions with keyword async passed as an argument to an it() spec. I am using Typescript by the way. Could you please take a look at this question and provide your insights. I have been trying so many different ways but didn't succeed yet. :(
    – Tums
    Commented Mar 5, 2018 at 18:44
  • @Tums That's because AsyncFunction !== Function check is there to avoid false positives. There won't be true positives in transpiled code because async functions don't differ from regular ones in transpiled code. Commented Mar 5, 2018 at 18:58
  • I'm writing a hook function, the function takes an object, target and hook... how do i know if i have to await? Commented Jun 11, 2020 at 19:47
  • 1
    @ErikAronesty Can you provide a one-liner example? If a value can be a promise or not a promise, you need to await, it works for promises and non-promises. This is what the last snippet in the answer shows. Commented Jun 11, 2020 at 19:56
  • @EstusFlask: stackoverflow.com/questions/10273309/… See how I can't just 'await'... because then I'd be changing the semantics of the hooked function. Commented Jun 11, 2020 at 21:27

As long as only the native async functions are used (which is usually the case), I prefer this simple way:

theFunc.constructor.name == 'AsyncFunction'
  • 1
    This also have the advantage to be more performant than a stringify :)
    – TOPKAT
    Commented Feb 21, 2020 at 15:42
  • 1
    The problem with duck typing is that custom function passes this check, theFunc = new class AsyncFunction extends Function {}. But transpiled async function doesn't, theFunc = () => __awaiter(void 0, void 0, void 0, function* () { }). Commented Apr 6, 2020 at 21:43
  • 3
    Of course @EstusFlask, you are totally right. If it's your case - you need a more complex solution. But in a "real world" (not super special or artificial cases) - one could use this solution, instead of overkill monster checkers. But one should be aware of what you are saying, thank you for your comment!
    – Alexander
    Commented Apr 7, 2020 at 23:02
  • 1
    Why not use === 'AsyncFunction' like what @theVoogie suggested?
    – themefield
    Commented Oct 26, 2020 at 0:24
  • @Alexander, in a real world non-async functions return promises all the time, just like async functions.
    – cababunga
    Commented Nov 6, 2020 at 19:18

Both @rnd, and @estus are correct.

But to answer the question with an actual working solution here you go

function isAsync (func) {
    const string = func.toString().trim();

    return !!(
        // native
        string.match(/^async /) ||
        // babel (this may change, but hey...)
        string.match(/return _ref[^\.]*\.apply/)
        // insert your other dirty transpiler check

        // there are other more complex situations that maybe require you to check the return line for a *promise*

This is a very valid question, and I'm upset that someone down voted him. The main usecase for this type of checking is for a library/framework/decorators.

These are early days, and we shouldn't downvote VALID questions.

  • 1
    I guess the problem with this question is that it is XY problem. As it was already mentioned, async functions just return promises, so they shouldn't be detected at all. Btw, they cannot be reliably detected in minified transpiled code, _ref won't be there. Commented Nov 2, 2017 at 18:27
  • 1
    A slight issue beyond this, is a lot of times people will wrap node-style callbacks into promise wrappers to use with async functions, so the function may be async to a reasonable degree, but not really async. await may work in either case... where it could get complicated is async generators.
    – Tracker1
    Commented Jan 22, 2019 at 21:16
  • 1
    This is still a valid question, though. In code that only uses async and await, it matters to know whether a function was declared async or not, and it is irrelevant how async/await was imlemented under the hood. For example, if your API wrapper needs to make sure that a handler was declared async, so that it can throw an error the user can fix, then you want an answer to the original question, and this one will do just fine. So to add to this answer: another way to check natively is fn.constructor.name, which will be AsyncFunction for async functions. Commented Jun 15, 2019 at 21:03
  • 2
    Remember that just because you aren't aware of any practical scenario, that doesn't mean there are none. So that's something new to learn: you can discover whether a function is async or not, which means you can write code that will "do things" with or to async functions while leaving regular functions alone (or vice versa). Is it useful for normal code? No, I also can't think of a scenario in which you'd need that. But is that important for code analysis, AST builders, or transpilers that are themselves written in JS? Yeah: pretty important, actually. Commented Sep 11, 2020 at 22:14
  • 1
    Suffered this in an API where we rather loosely allow function(resolve, reject), async function() or Promise. The second two can be detected rather easily if a transpiler isn't involved. Once the transpiler gets involved, it's pretty much impossible to detect the difference between async and function(resolve, reject). Unfortunately, due to minification, the proposed solution is just shy of working. It's too bad that the transpiler didn't leverage a Promise pollyfill, which would have been easier to detect. :/
    – tresf
    Commented Apr 28, 2022 at 5:27

In case you're using NodeJS 10.x or later

Use the native util function.

   util.types.isAsyncFunction(function foo() {});  // Returns false
   util.types.isAsyncFunction(async function foo() {});  // Returns true

Do keep all the concerns in mind from above ansers though. A function that just returns by accident a promise, will return a false negative.

And on top of that (from the docs):

Note that this only reports back what the JavaScript engine is seeing; in particular, the return value may not match the original source code if a transpilation tool was used.

But if you use async in NodeJS 10 and no transiplation. This is a nice solution.


It seems that await can be used for normal functions too. I'm not sure if it can be considered "good practice" but here it is:

async function asyncFn() {
  // await for some async stuff
  return 'hello from asyncFn' 

function syncFn() {
  return 'hello from syncFn'

async function run() {
  console.log(await asyncFn()) // 'hello from asyncFn'
  console.log(await syncFn()) // 'hello from syncFn'

  • await will promisify normal fucntions
    – ahmelq
    Commented Apr 27, 2022 at 9:50

Here is a short and useful approach provided by David Walsh in his blogpost:

const isAsync = myFunction.constructor.name === "AsyncFunction";


  • 1
    –1. This approach was already described in an earlier answer. Commented Jan 6, 2023 at 10:16


Short answer: Use instaceof after exposing AsyncFunction - see below.

Long answer: Don't do that - see below.

How to do it

You can detect whether a function was declared with the async keyword

When you create a function, it shows that it's a type Function:

> f1 = function () {};
[Function: f1]

You can test it with the instanceof operator:

> f1 instanceof Function

When you create an async function, it shows that it's a type AsyncFunction:

> f2 = async function () {}
[AsyncFunction: f2]

so one might expect that it can be tested with instanceof as well:

> f2 instanceof AsyncFunction
ReferenceError: AsyncFunction is not defined

Why is that? Because the AsyncFunction is not a global object. See the docs:

even though, as you can see, it's listed under Reference/Global_Objects...

If you need easy access to the AsyncFunction then you can use my unexposed module:

to get either a local variable:

const { AsyncFunction } = require('unexposed');

or to add a global AsyncFunction alongside other global objects:


and now the above works as expected:

> f2 = async function () {}
[AsyncFunction: f2]
> f2 instanceof AsyncFunction

Why you shouldn't do it

The above code will test whether the function was created with the async keyword but keep in mind that what is really important is not how a function was created but whether or not a function returns a promise.

Everywhere where you can use this "async" function:

const f1 = async () => {
  // ...

you could also use this:

const f2 = () => new Promise((resolve, reject) => {

even though it was not created with the async keyword and thus will not be matched with instanceof or with any other method posted in other answers.

Specifically, consider this:

const f1 = async (x) => {
  // ...

const f2 = () => f1(123);

The f2 is just f1 with hardcoded argument and it doesn't make much sense to add async here, even though the result will be as much "async" as f1 in every respect.


So it is possible to check if a function was created with the async keyword, but use it with caution because you when you check it then most likely you're doing something wrong.

  • What I can understand with "Why you shouldn't do it", it's fine to check if a function is declared with async to know if it is doing some async/await operation inside but returning nothing. Commented Mar 29, 2018 at 7:05
  • 1
    @AmitGupta It doesn't return nothing. It returns a promise. Commented Apr 11, 2018 at 11:44
  • If you have a codebase that mixes async/await (which requires knowing nothing about promises) and promise functions, really that's the thing you shouldn't be doing. The nice thing about async/await is that the implementation details become irrelevant: you don't then().catch() an async function, you try/await it instead. So yeah, you totally should check the function's type if you leitimately need to know whether it's async or not, but not by using instanceof: use fn.constructor.name instead. If it's AsyncFunction instead of Function, you know it's an async function. Commented Jun 15, 2019 at 21:11

So I want to execute await callback() or callback() depending on the type of function that it is receiving.

You could always execute it with await and it will do the right thing:

async function main(callback) {
  let result = await callback(); // even if callback is not async
  // use 'result'

Is there a way to know the type of the function??

Maybe what you're actually interested in is the type of the result of the function. Dariusz Filipiak's answer is good but it can be even more concise:

async function main(callback) {
  let result = callback();
  if (result instanceof Promise) {
    result = await result;
  // use 'result'

You can assume at begin that callback is promise:

export async function runSyncOrAsync(callback: Function) {

  let promisOrValue = callback()
  if (promisOrValue instanceof Promise) {
    promisOrValue = Promise.resolve(promisOrValue)
  return promisOrValue;

and them in your code you can do this:

await runSyncOrAsync(callback)

which will solve your problem with unknowing callback type....


Full Solution: Handle both Async and Promise

I always use Promises and async/await interchangeably, as they are basically the same.

Async/Await is used to work with promises in asynchronous functions. It is basically syntactic sugar for promises. It is just a wrapper to restyle code and make promises easier to read and use. Source: GeeksForGeeks

If you need a helper function to determine if a value is an asynchronous function, without invoking it, or if a value is a function that returns a Promise, you have arrived at the right post.

In this example I will present three different approaches.

  1. Check if function is an async/await function.
  2. Check if a regular function returns a Promise.
  3. Check both.

Handle Async Functions

This function can determine if a function was defined using the async keyword.

Example functions to validate

async function a() {}
const b = async () => {}

Validation function

function isAsyncFunction(f: unknown): boolean {
  return f && f.constructor.name === 'AsyncFunction'

Handle Promise Functions

This function can determine if a regular function returns a Promise. In order assess if the given function returns a Promise, we need to invoke the function and examine the returned value. To avoid multiple invocations of the same function, we can return the the aforementioned value if it's a Promise, and false if it's not.

Example functions to validate

function a() { return new Promise(() => {}) }
const b = () => new Promise(() => {})

Validation function

function isPromiseFunction<T>(fn: any, ...params: any[]): Promise<T> | boolean {
    const isFunction = fn && typeof fn === 'function'
    const notAsyncFunction = fn.constructor.name !== 'AsyncFunction'
    if (isFunction && notAsyncFunction) {
        const value = fn(...params) || false
        if (value && value.constructor.name === 'Promise') {
            return value as Promise<T>
    return false

Handle both

Because both AsyncFunction and Promise are essentially the same, we can just check if they both return a Promise.

function isAsync<T>(fn: any, ...params: any[]): Promise<T> | boolean {
    const isFunction = fn && typeof fn === 'function'
    if (isFunction) {
        const value = fn(...params) || false
        if (value && value.constructor.name === 'Promise') {
            return value as Promise<T>
    return false


Asynchronous functions are faster and cleaner to validate, whereas promise functions need to be invoked in order to be validated.

Test Functions (CodePen)


  • I think it's a bit misleading of GeeksForGeeks to say that "Async/Await ... is basically syntactic sugar" . Using await on a call to any function fundamentally changes the execution sequence, When await is applied to a sync function call, the result is that the async function within which the call is made will return an unresolved promise at the point of the await even though the called sync function has already completed.
    – JohnRC
    Commented Feb 18, 2022 at 11:19

Instead of testing if a function that you want to call efficiently is an async function (i.e. returns a Promise), you can call it without await, check if the returned value is a promise, and only then await it:

let result = someFunctionWhichMayBeAsync()
if (typeof result?.then === 'function') {
   result = await result

This approach will work with genuine async functions, and anything which returns a Promise (or thenable. The only caveat is it could fail if a value is returned which has a .then method which is not actually a thenable (but so would calling await or Promise.resolve() unconditionally in that circumstance, so there isn't really anything better you can do).

FWIW it may not be any more performant than just awaiting the return value unconditionally, as checking the value of .then might be more expensive than the overhead of await - here's a benchmark.


for all my javascript datatype needs i typically go for the standard

    function datatype(v){
          var str   = Object.prototype.toString.call(v);
          str       = str.slice(8,-1);
          str       = str.toLowerCase();
          return str;

    datatype(async()=>{})               //  asyncfunction
    datatype(()=>{})                    //  function
    datatype(new Promise(()=>{}))       //  promise

here's a pen to test out the datatype function


there are some caveats with this method, javascript seems fundamentally lacking in type determination

what's different between Object.prototype.toString.call and typeof

this datatype method can be modified to deal with edge cases and seems the most reliable, including in terms of variables created from other contexts

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